The most comprehensive catalog of great-ape genome diversity to date offers insight into primate evolution, revealing chimpanzees have a much more complex genetic history than humans.

In a new study, researchers sequenced a total of 79 great apes, including chimpanzees, bonobos, eastern and western gorillas, orangutans and humans, as well as seven ape subspecies. The animals were wild- and captive-born individuals from populations in Africa and Southeast Asia.

Much attention has been focused on studying the diversity among human genomes, said study researcher Tomas Marques-Bonet, a geneticist at the Institut de Biologia Evolutiva in Spain. "If we want to understand the genetic diversity of humans, we need to measure the genetic diversity of our nearest relatives," Marques-Bonet said. [Unraveling the Human Genome: 6 Molecular Milestones]

As part of the study, Marques-Bonet and his colleagues were looking for genetic markers corresponding to changes in a single letter in the genetic code that define a subspecies. The researchers identified millions of such markers, which are important for conservation efforts. For instance, these markers allow people who manage wild-ape populations to identify different kinds of ape. Most of these animals are captured from illegal trade, so scientists don't know how they're related, Marques-Bonet told LiveScience.

Surprisingly, Marques-Bonet said, the genetic history of chimpanzees turned out to be much more complex than that of humans. Compared with chimps, "it looks like our [humans'] history has been really simple," Marques-Bonet said. Human populations encountered a bottleneck when they left Africa, and have since expanded to colonize the whole planet. By contrast, chimpanzee populations have undergone at least two to three bottlenecks and expansions, Marques-Bonet said.

The findings, the researchers said, also settle a hot debate over the relationships among the four chimpanzee subspecies — Central chimpanzee, Western chimpanzee, Nigeria-Cameroon chimpanzee and Eastern chimpanzee. "Now, we have the full genome for all four," Marques-Bonet said. Rather than revealing four groups, the sequences show that all chimps divide into two major groups: a Nigeria-Cameroon/Western population and a Central/Eastern population.

The new findings don't change humans' position in the great-ape evolutionary tree. Chimpanzees and bonobos are still humans' closest living relatives, splitting off from humanity about 5 million years ago. Humans' next-closest living relatives are gorillas, and orangutans are the most distantly related of the great apes.

Despite the genetic similarity between humans and chimpanzees, the two species are clearly quite different. Some scientists had hypothesized that the differences stem from the "lost" parts of human genomes compared with chimp genomes. But the new study disproved that theory by showing that the lost parts were mostly nonfunctional.

So if it's not genetics, what makes humans different from their great-ape cousins? "If I knew, I would have the Nobel Prize," Marques-Bonet said.

"Having these genomes is like having a book," he added. "So far, we are only just reading the book. It's not the same as understanding it."

The findings are detailed online today (July 3) in the journal Nature.

Editor's Recommendations

Tanya Lewis

Tanya has been writing for Live Science since 2013. She covers a wide array of topics, ranging from neuroscience to robotics to strange/cute animals. She received a graduate certificate in science communication from the University of California, Santa Cruz, and a bachelor of science in biomedical engineering from Brown University. She has previously written for Science News, Wired, The Santa Cruz Sentinel, the radio show Big Picture Science and other places. Tanya has lived on a tropical island, witnessed volcanic eruptions and flown in zero gravity (without losing her lunch!). To find out what her latest project is, you can visit her website.